Metallurgical bonding of dissimilar metals

ABSTRACT

A metallurgical bond between dissimilar metals is obtained by using compatible shims between the metal members which will form a metallurgical bond to each other and to the dissimilar metals. Where copper and aluminum are the metals, a copper-silverphosphorus shim and silver shim are used. A tin shim may be used between the copper-silver-phosphorus shim and the silver shim to improve their bonding characteristics. Heat and pressure are used to form the bond.

United States Patent Bennett [15] 3,678,242 51 July 18,1972

[S4] METALLURGICAL BONDING OF DISSIMILAR METALS [72] Inventor: Moreland P. Bennett, Pittsfield, Mass.

[73] Assignee: General Electric Company [22] Filed: April 27, 1970 [21] Appl. N0.: 43,279

Related U.S. Application Data [62] Division of Ser. No. 681,458, Nov. 8, 1967, Pat. No.

[52] U.S. Cl ..219/118, 29/498, 29/1975 [5| Int. Cl ..B23k 9/00 [58] Field of Search ..29/197, 199, 498, 501, 506;

[56] References Cited UNITED STATES PATENTS 3,473,216 10/1969 Webb ..29/198 X Polinko, Jr ..29/498 X Beggs ..29/473.l

Primary Examiner-J. V. Truhe Assistant Examiner-Gale R. Peterson AttorneyGilbert P. Tarleton, Francis X. Doyle, Melvin A. Goldenberg, Frank L. Neuhauser and Oscar B. Waddell [57] ABSTRACT A metallurgical bond between dissimilar metals is obtained by using compatible shims between the metal members which will form a metallurgical bond to each other and to the dissimilar metals. Where copper and aluminum are the metals, a copper-silver-phosphorus shim and silver shim are used. A tin shim may be used between the copper-silver-phosphorus shim and the silver shim to improve their bonding characteristics. Heat and pressure are used to form the bond.

3 Claim, 4 Drawing Figures METALLURGICAL BONDING OF DISSIMILAR METALS REFERENCE TO RELATED APPLICATIONS This is a division of application Ser. No. 681,458, filed Nov. 8, 1967 now Pat. No. 3,551,998 granted Jan. 5, 1971 in the name of the present inventor and is assigned to the same assignee as this present application.

BACKGROUND OF THE INVENTION This invention relates to the joining of dissimilar metals and more particularly, to a method of forming a metallurgical bond between dissimilar metals and to the joint formed thereby.

The problems which are inherent in forming a joint between dissimilar metals are well known to those skilled in the metal joining art. In general dissimilar metals, such as for example, copper and aluminum, do not form good metallurgical bonds with each other. The joints usually formed are unsatisfactory. This is particularly true for electrical applications since such joints tend to have a high electrical resistance. Further in most prior methods of joining dissimilar metals such as for example, copper and aluminum, the joints so formed have been marked by very weak mechanical properties.

Recently, in the electrical apparatus field, the use of aluminum strip winding to form coils has become widely used throughout the industry. This has lead to a requirement for finding a more advantageous way of joining the aluminum to different types of dissimilar metals. This has become necessary due to the use of leads and crossovers of dissimilar metals, such as for example, copper, that are considered desirable as the leads when the aluminum strip material is used for windings.

It has recently been disclosed in U.S. Pat. No. 3,310,388 that bonds between dissimilar metals, such as aluminum and copper canbe made by the use of a silver brazing alloy in apertures in the aluminum member with the dissimilar metal such as copper on opposite sides of the aluminum metal. A brazing heat melts the alloy and forms a strong low resistance bond between the members of the sandwich structure.

While this bond provides a good electrical and mechanical joint between the members, it has been considered desirable to obtain a secure electrical connection between dissimilar metals using only single places of each type of metal. F urther, it is considered desirable to make such joints without the need of apertures in either of the members to be joined.

it has recently been discovered that a secure electrical and mechanical joint can be formed between dissimilar members by using metal shims between such members where the metal shims provide good metallurgical bond with each other and each shim would provide a good metallurgical bond with one of the dissimilar metal members.

It is therefore one object of this invention to provide a novel method of joining dissimilar metals.

Another object of this invention is to provide a novel joint between dissimilar metals.

Still a further object of this invention is to provide a novel joint between dissimilar metals where the joint has'excellent electrical characteristics and high mechanical strength.

Yet another object of this invention is to provide a novel joint between dissimilar metals comprising a pair of dissimilar metal members with metal shims therebetween forming good metallurgical bonds between the shims and the dissimilar members.

A still further object of this invention is to provide a novel metallurgical bond between dissimilar metals by use of metallurgical bonding between metal shims placed between the dissimilar metal members.

SUMMARY Briefly, in one form, this invention comprises a method of joining dissimilar metals in which the metals to be joined have portions thereof aligned with each other. Metal shims capable of forming metallurgical bonds with each other are placed between the aligned portions with one metal shim adjacent one metal member and being capable of forming a metallurgical bond therewith. The other metal shim is placed adjacent the other metal member and is capable of forming a metallurgical bond therewith. Heat and pressure are applied to the aligned portion to diffuse the metal shims into the metal members and into each other. When cooled, a low resistance, high mechanical strength bond is formed between the dissimilar metals. The invention also comprises the joint made by this method.

The invention which it is desired to be protected will be particularly pointed out and distinctly claimed in the claims appended hereto. However, it is believed that this invention and the manner in which its various objects and advantages are obtained as well as other objects and advantages thereof, will be better understood by reference to the following detailed description of preferred embodiments thereof, especially when considered in the light of the accompanying drawings.

DRAWINGS FIG. I is a perspective view of one form of joint structure which may be used in carrying out this invention;

FIG. 2 is a perspective view of another form of the structure which may be used in carrying out this invention;

FIG. 3 is a perspective view of still another embodiment of a structure which may be used in carrying out the metallurgical bonding of this invention; and

FIG. 4 is a diagrammatic sectional view of one form of joint made according to a preferred embodiment of this invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT As hereinbefore mentioned, it has been discovered that a good low resistance, high mechanical strength bond can be formed between dissimilar metals by use of compatible metal shims placed between the aligned portions of dissimilar metals which are to be joined. A sandwich structure is formed which comprises one of the dissimilar metal members, a metal shim compatible with such dissimilar metal adjacent thereto, a second metal shim compatible with said first metal shim, and another dissimilar metal below said second shim with the second shim also being compatible with the second dissimilar metal member. When heat and pressure are applied to this sandwich structure, the metal shims will melt and diffuse into the dissimilar metals, forming metallurgical bonds with each of the dissimilar metals they are adjacent to and will also form a good metallurgical bond with each other.

It will be apparent that any number of different types of dissimilar metals may be joined by use of this invention, merely by providing metal shims between such dissimilar metals where the metal shims are compatible with each other and also compatible to the adjacent metal members. This invention also contemplates the use of a third metal shim which is placed between said first two metal shims wherein the third metal shim will aid in forming a good metallurgical bond between the first and second metal shim. As the description proceeds, the use of the different types of shims and the manner of assembling the structure for joining dissimilar metals in accordance with this invention will be better understood.

Referring now to the drawings in which like numerals are used to indicate like parts throughout the various views thereof, there is shown, particularly in FIG. 1 of the drawing, one type of structure which may be used to obtain a good electrical and mechanical bond between a pair of dissimilar metal members. Considering FIG. 1, there is shown one type of metal member indicated at 10 having a portion 12 which is to be joined to a second metal member 14, particularly at the portion 16 thereof. As is shown in FIG. 1, a pair of metal shims 18 a and 20 are placed between the aligned portions 12 and 16 of the dissimilar metal members 10 and 14. As will be understood, metal shim 18 is a metallic member which, when melted will form a good metallurgical bond with the metal member 10. In the same manner, the metal shim 20 is a metallic member which will form a good metallurgical bond with the metal member 14. Additionally, it is required that each of metal shims 18 and 20 be compatible with each other such that each will form a good metallurgical bond with the other.

As can be seen from FIG. 1, electrode members 22 and 24 are provided adjacent the portions 12 and 16 of metal members I and 14 which are to be joined. In the structure shown in FIG. 1, the electrodes 22 and 24 are connected through a transformer to provide resistance heating of the joint between metal members and 14. As will be understood, when electrodes 22 and 24 are brought in contact with the portions 12 and 16, of metal members 10 and 14, pressure is applied by the electrodes forcing the structure comprising the metal member 10, the shims l8 and and metal member 14 into close contact with each other. Heat will be generated by the resistance of the electrodes and joint, such heat being sufficient to cause metal shims 18 and 20 to diffuse into metal members 10 and 14 respectively, and also into each other to form good metallurgical bond therebetween.

In one form of this invention, metal member 10 is a copper strip while metal member 14 is an aluminum strip. The shim 18 is preferably a copper-silver and phosphorus metallic alloy while the metal shim 20 is a commercially pure silver shim. When aluminum and copper are used as above indicated, it is desired that the electrode 24 be a water-cooled copper or copper alloy electrode to prevent undue heating of the aluminum member 14. As will be understood, as heat and pressure are applied by means of electrodes 22, 24, the shims l8 and 20 will diffuse into the copper l0 and the aluminum 14 and also into each other. In one particular embodiment of the invention, the heat of the joint was between l,200 and l,400 F., with a current of approximately 5,000 amperes while the pressure applied by the electrodes 22 and 24 was approximately 1,300 pounds per square inch. The electrode 24 prevented undue heating of the aluminum member 14 which did not reach more than approximately 500 F, at the contacting surface of the aluminum and the electrode.

In another form of the invention, the metal member 10 was copper while the metal member 14 was steel. In this form, a copper-silver and cadmium shim 18 and a tin-copper shim 20 were used between the copper and steel members. The electrodes used were copper and molybdenum which at a current of approximately 18,000 amperes provided a temperature of approximately l,500 F. The pressure applied was approximately 10,000 pounds per square inch. A joint between steel and aluminum may also be made by this invention. With member 10 steel and member 14 aluminum, shim 18 was copper-silver-cadmium, while shim 20 was silver. Carbon electrodes were used with a current of approximately 2,000 amperes which yielded a temperature at the joint of approximately l,400 F. The pressure applied was approximately 500 pounds per square inch.

It will be understood that the time for making the various joints will vary with the heat and pressure use. In the above examples, the copper to aluminum bond required approximately 20 seconds while the steel to aluminum bond only required approximately l0 seconds. In general, where a lower heat is used a longer time period will be required to obtain a good metallurgical bond. The electrodes used will determine the heat, pressure and time cycle to be used. As will be understood, the type of electrode will also determine the current necessary to obtain the necessary heat for the joint. As is well known, carbon electrodes require less current to obtain a given heat than do electrodes of refractory material, such as molybdenum.

From the above description it will be apparent that the method of this invention will provide metallurgical bonds between any types of metals or metal alloys where compatible shims are used.

Referring now to FIG. 2 of the drawing, there is shown a perspective view of a second structure which may be utilized to form a good, low electrical resistance, high mechanical strength bond between a pair of similar metals 10 and 10 and a dissimilar metal 14. In this embodiment, the portions 12 and 12 of the similar metal members 10 and 10' are aligned on opposite sides of the portion 16 of metal member 14 as shown. A pair of metallic shims l8 and 20 are placed between metal members 10 and 14 in the same manner as previously discussed with reference to FIG. 1. Similarly, a second pair of metallic shims 18 and 20' are placed between the aligned portions 12' and 16 of metal members 10' and 14 as shown. Again, a pair of electrode members 22 and 24 are shown which will be used to provide electrical resistant heat and pressure to the structure shown to melt the shims 18, 20 and 18, 20 and diffuse these shims into their adjacent metal members and also into each other to form good metallurgical bonding therebetween. Of course it will be apparent that metal member 14 may be aluminum or some other type of metal as previously discussed with reference to FIG. 1, while metal members 10 and 10' may be copper or other types of dissimilar metal with reference to metal 14. In such instances, of course, the shims l8 and 20 and 18', 20 will depend upon the types of dissimilar metals which are to be joined.

Referring now to FIG. 3 of the drawing, there is shown another form of the bonding structure which may be used in accordance with this invention. Utilizing the same numbers as in FIG. 1, it will be seen that the metal member 10 is to have its portion 12 joined with metal member 14 at its portion 16. A pair of shims l8 and 20 are provided with metal shim 18 being adjacent to and compatible with metal member 10 while shim 20 is adjacent to and compatible with metal member 14. In the embodiment shown in FIG. 3, a third metal shim 26 is provided between the metal shim l8 and 20. The metal shim 20 is compatible with both metal shim l8 and 20 and will assist these shims l8 and 20 in bonding to each other. It is believed that the use of the third shim improves the bonding characteristics of the other shims with respect to each other. The electrodes 22 and 24 are again provided in order to provide resistant heat and pressure to the structure to thereby diffuse the metal shims into their adjacent metal members and each other to thereby form a good metallurgical bond between the joint members.

Where the metal member 10 is copper and the metal member 14 is aluminum then the shim 18 will be a coppersilver-phosphorus shim while shim 20 will be a commercially pure silver shim. The shim 26 in this instance will be a tin shim since it provides improved metallurgical bonding between the copper-siIver-phosphorus shim and the silver shim. Where the metal member 10 is steel and metal member 14 is aluminum and shim 18 is a copper-silver-cadmium metal shim and shim 20 is a silver metal shim, the shim 26 may be a tin-copper metal shim which will improve the compatibility of the metal shims 18 and 20.

Referring to FIG. 4, of the drawing, there is shown a diagramatic section view of the joint formed in accordance with the structure set forth in FIG. 1 of the drawing. As is shown, the metal member 10 forms the top portion of the joint while metal member 14 forms the lower portion thereof. As is evident from FIG. 4, the shim 18 has diffused into metal member 10 and has formed a bond therewith while the shim 20 has diffused into metal member 14 and formed a metallurgical bond therewith. Additionally, there is shown the area 30 between shims 18 and 20 which, as will be understood, shows the diffusion of the two shims l8 and 20 into each other to form a third metallurgical bond in the area 30.

From the above description of the various embodiments of this invention, it will be apparent to those skilled in the art that by means of this invention, a strong mechanical and low resistance electrical bond may be provided between various types of dissimilar metals. While the various embodiments have been set forth in the description of this invention, it will of course, be apparent to those skilled in the art that various changes may be made in the various embodiments shown without departing from the spirit and scope of the invention, especially as it is defined in the appended claims.

said copper-silver-phosphorous member and said silver member.

3. A joint between copper and aluminum comprising a copper member with an aluminum member on opposite sides thereof said copper and aluminum in bonded relation, said bond comprising a copper-silvet-phosphorous material bonded to said copper member and a silver portion bonded to each said aluminum member and said copper-silverphosphorous bonded to said silver.

I! III l t 1 UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent $6782 2 c te ulv 18. 1 Q72 lnv en fl Moreland P. Bennett" 7 It is certified that erroi appears in the above-identified patent and that said LettersPatent are hereby corrected as shown below:

Col. 1', line H4, "places" should be I pieces 001. 2, line73, after "18",delete a Col; 4, 'line 32, after "metal shim" 20 should be 26 -v Signed and sealed this 151) day of May 1973.

(SEAL) Attest: 4 EDWARD F ETCHER, JR. Q ROBERT GOTTSC HALK I Attesting Officer Commissioner of Patents 

2. A joint between copper and aluminum as set forth in claim 1 in which said bond includes a tin material bonded to said copper-silver-phosphorous member and said silver member.
 3. A joint between copper and aluminum comprising a copper member with an aluminum member on opposite sides thereof said copper and aluminum in bonded relation, said bond comprising a copper-silver-phosphorous material bonded to said copper member and a silver portion bonded to each said aluminum member and said copper-silver-phosphorous bonded to said silver. 